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Semantic Web Services

This lecture covers the main points of the course and provides space for discussion on Semantic Web Services, Web Science, Service Science, Web Services Technologies, Web 2.0 and RESTful Web Services, WSMO and WSML.

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Semantic Web Services

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  1. Semantic Web Services Exam Preparation Lecture XIV – 2nd July 2009 Dieter Fensel

  2. Where are we?

  3. In this lecture • Goal of this lecture is to • Recapitulate main points of the course • Leave space for discussion

  4. Semantic Web ServicesIntroduction • Vision of the Semantic Web • Layer cake • Ontologies as the basic building block • Definition • Languages • Web Services • Definition • Distinction between a Service and a Web Service • Deficiencies of the current WS technologies • Semantic Web Services • Vision and challenges

  5. Semantic Web ServicesWeb Science • What is the Web? • Definition • Structural and semantic components • What is the Web science? • Definitions and endorsements • Multi-disciplinary approach • Goals • Process and methodology • Challenges

  6. Semantic Web ServicesService Science • What is service? • Service vs. Web Service • Service properties • Functional, behavioral and non-functional • What is Service Science? • Goals • What is SOA? • Main actors, principles, lifecycle, self-* properties • What is SESA? • Layers

  7. Semantic Web ServicesWeb Services Technologies - SOAP • SOAP • Message Structure • Processing Model • Protocol Bindings • Message Exchange Patterns <env:Envelope xmlns:env="http://www.w3.org/2003/05/soap-envelope"> <env:Header> <n:alertcontrol xmlns:n="http://example.org/alertcontrol"> <n:priority>1</n:priority> <n:expires>2001-06-22T14:00:00-05:00</n:expires> </n:alertcontrol> </env:Header> <env:Body> <m:alert xmlns:m="http://example.org/alert"> <m:msg>Pick up Mary at school at 2pm</m:msg> </m:alert> </env:Body> </env:Envelope>

  8. Semantic Web ServicesWeb Services Technologies - WSDL • WSDL • Interface • Message Exchange patterns • Invocation • Messaging • Binding • Service

  9. Semantic Web ServicesWeb 2.0 and RESTful Web Services • REST Concepts • Architectural style • HTTP the main implementation of REST • REST Ingredients • Client-Server, Layering, Stateless Communication, Uniform Interface, Caching, Code-on-Demand • Definition of a RESTful Web Service • RESTful Models • Hypermedia • Operations

  10. Semantic Web ServicesWSMO - Ontologies • Ontologies • Specification • Ontology elements: Concepts, Attributes, Relations, Functions, Instances, Axioms

  11. Semantic Web ServicesWSMO – Web Services and Goals • Distinction between the Web Service and Goal

  12. Semantic Web ServicesWSMO – Mediators • Mediation • Data Level • Protocol Level • Process Level • Four different types of mediators in WSMO • ggMediators • ooMediators • wgMediators • wwMediators

  13. Semantic Web Services WSML - Variants

  14. Semantic Web Services WSML - Syntax • The WSML Full syntax consists of two major parts: the conceptual syntax and the logical expression syntax • The conceptual syntax is used for the modeling of ontologies, goals, web services and mediators; these are the elements of the WSMO conceptual model • Logical expressions are used to refine these definitions using a logical language • The other language variants impose restrictions on the general syntax (WSML Full syntax)

  15. Semantic Web Services WSML - Syntax • A WSML specification contains all information about a class and its attributes, a relation and its parameters and an instance and its attribute values in one large syntactic construct, instead of being divided into a number of atomic chunks • Attributes are defined locally to a class • A WSML specification is separated into two parts • Meta-information part, and • Specification of concepts, attributes, instances, relations, axioms, interfaces, … • WSML adopts the namespace mechanism of RDF; a namespace can be seen as part of an IRI • An identifier in WSML is either a data value, an IRI, an anonymous ID, or a variable • WSML has direct support for different types of concrete data corresponding to XML Schema primitive datatypes

  16. Semantic Web Services WSML - Syntax • WSML Prologue contains all those elements that are in common between all types of WSML specifications and all WSML variants • WSML Header • Nonfunctional properties • Importing ontologies • Mediator usages • WSML Ontologies • WSML Capabilities • WSML Logical Expressions • Restrictions of WSML variants

  17. Semantic Web Services WSMX - SESA

  18. Semantic Web Services WSMX – Design Principles and Lifecycle • Design Principles • Service-oriented principle • Semantic principle • Problem-solving principle • Distributed principle • Lifecycle • Discovery > Composition > Selection > Mediation > Choreography > Invocation

  19. Semantic Web Services WSMX – How to do… • Discovery • Key word vs. semantic matchmaking • Selection and ranking • Data mediation • Design vs. run-time phase • Process mediation • Choreography • Invocation • Role of grounding • Retrieve WSMO artifacts

  20. Semantic Web Services WSMX – Execution Semantics • Mandatory execution semantics • Goal-Based Web Service Discovery • Web Service Invocation • Goal-Based Service Execution

  21. Semantic Web Services Related frameworks and tools • IRS III • OWL-S • METEOR-S • SWSF • Conceptual model • Relations and differences to WSMO/L/X

  22. Semantic Web ServicesLightweight SWS - Service Semantics • Service model (expressed in RDF(S)) • Service semantics • Functional • Behavioral • Nonfunctional • Information model

  23. Semantic Web ServicesLightweight SWS – SAWSDL and WSMO-Lite But: no predefined semantics!

  24. Semantic Web ServicesLightweight SWS – hRESTS and MicroWSMO • HTML for RESTful Service Description • Introduces the service model structure • service (+ label) • operations (+ address, method) • input, output • Could also be in RDFa • Basis for extensions: • MicroWSMO adds semantic annotations • MicroWSMO Extends hRESTS • model for model references • lifting, lowering • Applies same semantics as WSMO-Lite

  25. Semantic Web ServicesUse Cases • DIP • developing and extending Semantic Web and Web Service technologies in order to produce a new technology infrastructure for Semantic Web Services (SWS) • B2B in telecommunication, Contract Catalogue Case Study, GIS Emergency Planning , eBanking • SUPER • to raise Business Process Management (BPM) to the business level, where it belongs, from the IT level where it mostly resides now. • Benefits and business oportunities • SWING • develop an open, easy-to-use Semantic Web Service framework of suitable ontologies and inference tools for annotation, discovery, composition, and invocation of geospatial web services • Mineral Resources Management • SOA4All • will facilitate a Service Web of billions of services revolutionizing the access and usage of software • Public sector, BT Web21c, C2C Service e-Commerce

  26. Semantic Web Servicesseekda • Search Engine for Web Services • fully automated focused crawling process • aggregating information from multiple sources into a semantic model • efficient means for finding services • community features enabling understanding and selecting right services • Focused Crawling • Data analysis • Web Service Marketplace • Software as a Service (SaaS)

  27. Semantic Web ServicesMobile Services • Enabling mobile technologies • End-User Empowerment in Converging Service Platforms • Enabling User-Driven Semantics • SPICE Project • User-Generated Policies • PAT tool • User-Generated Mobile Microservices • M:Ciudad project

  28. Next Lecture

  29. Questions?

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